Action of neurotoxin from the sea anemoneHomostichanthus duerdemi on inward sodium current in mammalian neurons

The action of purified toxin from the sea anemoneHomostichanthus duerdemi (HTX-1) on the inward sodium current was studied in experiments on isolated neurons from rat spinal ganglia and neuroblastoma cells of clone N-18F1, by an intracellular perfusion and voltage clamp method. HTX-1 was found to delay inactivation of the tetrodotoxin-(TTX-)sensitive inward sodium current and to make it incomplete, but virtually without affecting its activation. The relationship between the fraction of sodium channels modified by the toxin and the HTX-1 concentration is described by a Langmuir isotherm with association constant of (1.1 ± 0.1)·10−7 M (holding potential −100 mV). Under the influence of the toxin the peak inward sodium current was increased by about 80%. Binding of HTX-1 with TTX-sensitive sodium channels is distinguished by strong potential-dependence: at a holding membrane potential of 0 mV the binding constant was an order of magnitude less than at a potential of −100 mV. In the case of brief action of HTX-1 on the nerve cell membrane (under 5 min) the effect of the toxin was completely reversible, but if the time of action of HTX-1 exceeded 30 min, subsequent washing with normal solution for 90 min did not abolish the effect completely.